Pervasive Computing Parts of the slides are extracted from those of Profs. Mark Weiser, Deborah...
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Pervasive Computing
Parts of the slides are extracted from those of Profs. Mark Weiser, Deborah Estrin, Akbar Sayeed,
Jack Stankovic, Mani Srivastava, Esa Tuulari, Qiong Luo, Chung-Ta King, and so on.
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The Trends in Computing Technology
1970s
1990s
Late 1990s
Now and Tomorrow ?
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Pervasive Computing Era
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What is pervasive computing?
• An environment in which people interact with embedded (and mostly invisible) computers (processors) and in which networked devices are aware of their surroundings and peers and are able to provide services or use services from peers effectively
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What is pervasive computing?
• Several terms that share a common vision
– Pervasive Computing – Ubiquitous Computing – Ambient Intelligence– Wearable Computing– Context Awareness– ...
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Pervasive (Ubiquitous) Computing Vision
“In the 21st century the technology revolution will move into the everyday, the small and the invisible…”
“The most profound technologies are those that disappear. They weave themselves into the fabrics of everyday life until they are indistinguishable from it.”
Mark Weiser (1952 –1999), XEROX PARC
Small, cheap, mobile processors and sensorsin almost all everyday objectson your body (“wearable computing”)embedded in environment (“ambient intelligence”)
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Goals of Pervasive (Ubiquitous) Computing
• Ultimate goal:– Invisible technology– Integration of virtual and physical worlds– Throughout desks, rooms, buildings, and life– Take the data out of environment, leaving
behind just an enhanced ability to act
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Pervasive Computing Phase I
• Phase I– Smart, ubiquitous I/O devices: tabs, pads, and boards– Hundreds of computers per person, but casual, low-
intensity use– Many, many “displays”: audio, visual, environmental– Wireless networks– Location-based, context-aware services
• Using a computer should be as refreshing as a walk in the woods
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Smart Objects
• Real world objects are enriched with information processing capabilities
• Embedded processors– in everyday objects– small, cheap, lightweight
• Communication capability– wired or wireless– spontaneous networking
and interaction
• Sensors and actuators
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Smart Objects (cont.)
• Can remember pertinent events– They have a memory
• Show context-sensitive behavior– They may have sensors– Location/situation/context
awareness
• Are responsive/proactive– Communicate with environment– Networked with other smart objects
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Smart Objects (cont.)
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Pervasive Computing Enablers
• Moore’s Law of IC Technologies
• Communication Technologies
• Material Technologies
• Sensors/Actuators
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First Enabler: Moore‘s Law
• Processing speed and storage capacity double every 18 months– “cheaper, smaller, faster”
• Exponential increase– will probably go on for the next 10 years at the
same rate
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Generalized Moore’s Law
• Most important technology parameters double every 1–3 years:– computation cycles– memory, magnetic disks– bandwidth
• Consequence:– scaling down
Problems:
• increasing cost
• energy
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2nd Enabler: Communication
• Bandwidth of single fibers ~10 Gb/s– 2002: ~20 Tb/s with wavelength multiplex – Powerline– coffee maker “automatically” connected to the Internet
• Wireless– mobile phone: GSM, GPRS, 3G– wireless LAN (> 10 Mb/s)– Bluetooth
• Room networks, body area networks• Internet-on-a-chip
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Ubiquitous Information
PAN: Personal area network
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Body Area Networks
• Very low current (some nA), some kb/s through the human body
• Possible applications:– Car recognize driver– Pay when touching
the door of a bus– Phone configures itself
when it is touched
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Spontaneous Networking
• Objects in an open, distributed, dynamic world find each other and form a transitory community– Devices recognize that
they “belong together”
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3rd Enabler: New Materials
• Important: whole eras named after materials– e.g., “Stone Age”, “Iron Age”, “Pottery Age”, etc.
• Recent: semiconductors, fibers– information and communication technologies
• Organic semiconductors– change the external appearance of computers
• “Plastic” laser– Opto-electronics, flexible displays,…
• ...
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Smart Paper, Electronic Ink
• Electronic ink– micro capsules, white on one
side and black on the other
– oriented by electrical field
– substrate could be an array of plastic transistors
• Potentially high contrast, low energy, flexible
• Interactive: writable with magnetic pen
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Interactive Map
• Foldable and rollable
You are here!
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Smart Clothing• Conductive textiles and inks
– print electrically active patterns directly onto fabrics
• Sensors based on fabric– e.g., monitor pulse, blood pres
sure, body temperature• Invisible collar microphones• Kidswear
– game console on the sleeve?– integrated GPS-driven locators?– integrated small cameras (to k
eep the parents calm)?
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Smart Glasses
• By 2009, computers will disappear. Visual information will be written directly onto ourretinas by devices inour eyeglasses andcontact lenses-- Raymond Kurzweil
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4th Enabler: Sensors/Actuators
• Miniaturized cameras, microphones,...
• Fingerprint sensor
• Radio sensors
• RFID
• Infrared
• Location sensors– e.g., GPS
• ...
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Example: Radio Sensors
• No external power supply– energy from the
actuation process– piezoelectric and
pyroelectric materialstransform changes inpressure or temperatureinto energy
• RF signal is transmitted via an antenna (20 m distance)
• Applications: temperature surveillance, remote control (e.g., wireless light switch),...
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RFIDs (“Smart Labels”)
• Identify objects from distance– small IC with RF-transponder
• Wireless energy supply– ~1m– magnetic field (induction)
• ROM or EEPROM (writeable)– ~100 Byte
• Cost ~$0.1 ... $1– consumable and disposable
• Flexible tags– laminated with paper
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Putting Them Altogether
• Progress in– computing speed– communication bandwidth– material sciences– sensor techniques– computer science concepts– miniaturization– energy and battery– display technologies– ...
Enables new applications
“Post-PC era” business opportunities
Challenges for computer scientists, e.g., infrastructure
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Example Projects
• ETH Zurich The Smart Its Project
• HP Cooltown project
• AT&T Sentient System
• Berkeley’s Wireless Sensor Network
• Intel Mote/RFID Project
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The Smart Its Project
• Vision: make everyday objectsas smart, interconnectedinformation artifacts– by attaching “Smart-Its”
• Smart labels– Atmel microcontroller:
(ETH Zurich)4 MIPS, 128 kB flash
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HP Cooltown project
Magnifying Glass
• An object as a web link– e.g., by displaying a dynamically generated h
omepage– Contents may depend
on circumstances, e.g.,context and privileges
– possibly mediated bydifferent name resolvers
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AT&T Sentient System
Timeline-based context storage
Location tracking
Position monitoring
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Berkeley’s Wireless Sensor Network
• MICA Motes, sensors, and TinyOS:
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• Sensor nodes– Computing – MCU (micro-controller unit )– Sensing
• Heat, light, sound, magnetism, etc.
– Wireless communication
• Sensor networks– Consist of several thousands of sensor
nodes
– To retrieve information about an area of interest
Berkeley’s Wireless Sensor Network (Cont.)
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Intel Next Generation Mote
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Our Focus (1/2)
• Wireless Sensor Networks (WSNs)– Wireless LANs and PANs
• 802.11• 802.15.4 ZigBee• …
– Sensor nodes• MCU Architecture• TinyOS• Programming • …
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Our Focus (2/2)
• WSN Problems and Applications– Coverage– Energy Saving– Surveillance– Localization and Tracking– Intrusion Detection– Localization (Positionging)– Routing– Topology Control– Security– …
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Reference Book
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Reference Book
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Q&A